Clinical Trials Logo

Clinical Trial Summary

Acute Respiratory Distress Syndrome (ARDS) is associated with a mortality rate of 30 - 45 % and required invasive mechanical ventilation (MV) in almost 85 % of patients[1]. During controlled MV, driving pressure (i.e., the difference between end-inspiratory and end-expiratory airway pressure) depends of both tidal volume and respiratory system compliance. Either excessive tidal volume or reduced lung aeration may increase the driving pressure. ARDS patients receiving tidal volume of 6 ml/kg predicted body weight (PBW) and having a day-1 driving pressure ≥ 14 cmH2O have an increased risk of death in the hospital[2]. Seemly, in the LUNG SAFE observational cohort, ARDS patients having a day-1 driving pressure < 11 cmH2O had the lowest risk of death in the hospital[1]. Hence, driving pressure acts as a major contributor of mortality in ARDS, and probably reflects excessive regional lung distension resulting in pro-inflammatory and fibrotic biological processes. Whether decreasing the driving pressure by an intervention change mortality remains an hypothesis; but one of means is to decrease the tidal volume from 6 to 4 ml/ kg predicted body weight (PBW). However, this strategy promotes hypercarbia, at constant respiratory rate, by decreasing the alveolar ventilation. In this setting, implementing an extracorporeal CO2 removal (ECCO2R) therapy prevents from hypercarbia. A number of low-flow ECCO2R devices are now available and some of those use renal replacement therapy (RRT) platform. The investigators previously reported that combining a membrane oxygenator (0.65 m²) within a hemofiltration circuit provides efficacious low flow ECCO2R and blood purification in patients presenting with both ARDS and Acute Kidney injury[3]. This study aims to investigate the efficacy of an original ECCO2R system combining a 0.67 m² membrane oxygenator (Lilliput 2, SORIN) inserted within a specific circuit (HP-X, BAXTER) and mounted on a RRT monitor (PrismafleX, BAXTER). Such a therapy only aims to provide decarboxylation but not blood purification and has the huge advantage to be potentially implemented in most ICUs without requiring a specific ECCO2R device. The study will consist in three periods: - The first period will address the efficacy of this original ECCO2R system at tidal volume of 6 and 4 ml/kg PBW using an off-on-off design. - The second part will investigate the effect of varying the sweep gas flow (0-2-4-6-8-10 l/min) and the mixture of the sweep gas (Air/O2) on the CO2 removal rate. - The third part will compare three ventilatory strategies applied in a crossover design: 1. Minimal distension: Tidal volume 4 ml/kg PBW and positive end-expiratory pressure (PEEP) based on the ARDSNet PEEP/FiO2 table (ARMA). 2. Maximal recruitment: 4 ml/kg PBW and PEEP adjusted to maintain a plateau pressure between 23 - 25 cmH2O. 3. Standard: Tidal volume 6 ml/kg and PEEP based on the ARDSNet PEEP/FiO2 table (ARMA).


Clinical Trial Description

n/a


Study Design


Related Conditions & MeSH terms


NCT number NCT03525691
Study type Interventional
Source Hôpital Européen Marseille
Contact
Status Terminated
Phase N/A
Start date May 23, 2018
Completion date December 5, 2023

See also
  Status Clinical Trial Phase
Not yet recruiting NCT06444750 - Comparison of the Proteome in ICU Patients in Search for TRALI Biomarkers
Not yet recruiting NCT05306392 - Effects of Induced Moderate Hypothermia on ARDS Patients Under Venovenous ExtraCorporeal Membrane Oxygenation N/A
Completed NCT04719182 - Practice of Adjunctive Treatments in Intensive Care Unit Patients With COVID-19
Completed NCT04274296 - Advisory Lead ARDS Respirator Management
Terminated NCT04954014 - Pilot Study of Single Dose Bevacizumab as Treatment for Acute Respiratory Distress Syndrome (ARDS) in COVID-19 Patients Phase 2
Recruiting NCT03215316 - Screening Expiratory Flow Limitation by Flow-time Curve N/A
Recruiting NCT04115514 - Treatment of ARDS With Instilled T3 Phase 2
Not yet recruiting NCT05061212 - The Mechanism of Extracellular Vesicles Containing Mitochondrial DNA in ARDS Lung Injury Caused by Extrapulmonary Sepsis
Completed NCT05693051 - Use of Prone Position Ventilation in Danish Patients With COVID-19 Induced Severe ARDS Treated With VV-ECMO
Not yet recruiting NCT04556864 - Hemodynamic Impact on Critical Care Patients With Lung Damage Secondary to COVID-19
Recruiting NCT04174014 - Optimal PEEP Titration Combining Transpulmonary Pressure Measurement and Electric Impedance Tomography N/A
Enrolling by invitation NCT06164639 - Potential Biomarkers for Reflux Aspiration-induced Lung Injury.
Terminated NCT05384379 - Efficacy and Safety Evaluation of BZ371B in ARDS Patients Early Phase 1
Completed NCT04375735 - London's Exogenous Surfactant Study for COVID19 Phase 1/Phase 2
Completed NCT06224010 - Respiratory Drive and Inspiratory Effort in COVID-19 Associated ARDS
Not yet recruiting NCT04530188 - Effects of Sevoflurane on Extravascular Lung Water and Pulmonary Vascular Permeability in Patients With ARDS Phase 3
Completed NCT03405038 - Prone Position Impact in ARDS Patients on the Incidence of Central Venous Catheter Colonization
Recruiting NCT05148026 - Regional Citrate Anticoagulation for RRT During V-V ECMO N/A
Recruiting NCT04390360 - Smartphone Application for Initiation of Protective Ventilation. Clinical Impact of Instrumental Dead Space Reduction N/A
Completed NCT06197256 - Cardiac Dysfunction in Critically Ill Covid-19 Patients